7.4 OPERATING PROCEDURES FOR METEOR SCATTER QSO'S (Davos 2005)

7.4.1 Introduction

The goal of the procedures described is to enable valid contacts to be made
by meteor scatter (MS) reflection as quickly and easily as possible.
Meteor scatter is unlike most other propagation modes, in that neither
station can hear the other until an ionised meteor trail exists to
scatter or reflect the signals. As the reflections are often of very
short duration the normal QSO procedure is not readily applicable and
specialised operating techniques must be taken to ensure that a maximum
of correct and unmistakable information is received. The two stations
have to take turns to transmit and receive information in a defined
format, following the procedures as detailed below. Some meteor showers
are strong enough to make some of these measures unnecessary, but to
encourage use of all generally listed showers there is no reason why the
suggested procedures should not always be used. As with operating
procedures in general, the virtues of the MS operating procedures are
mainly that they are standard and are widely understood throughout IARU
Region 1.

7.4.2 Scheduled and Random Contacts

Two types of MS contacts, arranged in different ways, may be distinguished:

a) A scheduled contact, where two interested stations arrange in advance
the frequency, timing, transmission mode, e.g. Telegraphy, SSB or MGM
and call signs to be used. Scheduling may be carried out by exchange of
letters or e-mail, by radio via the European VHF Net on 14,345 MHz, by
Internet chat-rooms, packet-radio etc.

b) A non-scheduled
contact, where a station calls CQ or responds to a CQ call, are called
"random contacts". Random contacts are far more difficult and because
you are starting entirely from scratch, it is particularly important for
both stations to follow the standard meteor scatter QSO procedures
described in this document.

7.4.3 Timing

Prior to any MS activity it is absolutely vital that clocks need to be set to
better than 1 second of standard time. Any clock inaccuracy will result
in wasted time. Accurate timing of transmit and receive periods is
important for two reasons: 1) to maximise the chances of hearing the
other station, and 2) to avoid interference between local stations.
Accurate timing can be accomplished for example by checking against the
time-ticks on standard frequency transmissions, TV Teletext, telephone
'speaking-clock', GPS time signals or the Internet.

The recommended time periods for the different modes are:

Telegraphy: 2.5 minutes periods.

SSB: 1 minute periods.

MGM: 30 seconds periods.

This
practice gives quite satisfactory results. However developing
technology make it possible to use much different periods and amateurs
may wish to arrange 1 minute periods for Telegraphy and shorter periods
for SSB and MGM especially during major showers. If non-recommended time
periods are used the first priority is to avoid causing interference to
local stations that are using the recommended periods.

Even though the recommended period for SSB contacts is 1 minute periods a
quick-break procedure making a break every 10-15 seconds, in case the
QSO can be completed within one long burst, are encouraged during major
meteor showers.

7.4.4 TRANSMIT PERIODS

In order to minimise the overall interference with other stations standard transmit
periods are recommended. Station in central and Western Europe should
use second period. All MS operators living in the same area should, as
far as possible, agree to transmit simultaneously in order to avoid
mutual interference.

7.4.5 QSO DURATION

Every uninterrupted QSO period must be considered as a separate trial. This
means that it is not permissible to break off and then continue the
contact at a later time.

7.4.6 FREQUENCIES

Scheduled contacts

These contacts may be arranged on any frequency, taking into consideration
the mode and band plan. Scheduled contacts must not use known
popular frequencies and the random MS frequencies. Special care should
be applied on the frequency selection to avoid interference when using
reverse transmit periods according to your location.

Random contacts

The frequency used for CQ calls for random contacts should be according to the IARU Region 1 bandplans.

7.4.7 QSY FREQUENCIES FOR MGM

To avoid -interference, which results from a large number of stations
attempting to complete contacts on the various MS calling frequencies, a
QSY method is recommended. During the CQ the caller indicates on which
frequency he/she will listen for a reply and carry out any subsequent
QSO. The procedure for moving a beginning QSO off the calling frequency
without losing contact is as follows. If an operator wants to call CQ
the following QSY procedure should be used:

Select the frequency to be used for a QSO by checking whether it is clear of traffic and QRM.

In the CQ call, immediately following the letters "CQ", kHz is inserted to
indicate the frequency that will be used for reception when the CQ call
finishes.

During the receiving period the receiver should be tuned to the frequency indicated by the letter used in the CQ call.

When the caller receives a signal on the receiving frequency indicated
during the call and identifies the reply as an answer on his CQ, the
transmitter is moved to the same receiving frequency and the whole QSO
procedure takes place there.

If an operator instead of calling CQ wishes to listen for a CQ call the following QSY-procedure should be used:

Listen on a random contact frequency.

When a CQ call is received, note the kHz-frequency, which follows the
letters "CQ" in the call. From this find the correct receiving frequency
which the calling station will use for receiving replies.

QSY
the transmitter to the receiving frequency, and transmit a reply during
the appropriate period. The format for the reply can be found in section
8.

As the QSO will take place on this frequency, continue to
transmit and to listen, during the appropriate periods, on this
frequency. It may be that the station calling CQ will not hear your
first reply, but may do so during one or more subsequent periods. Hence
there is no need to return to the calling frequency.

The QSY frequencies should take place in the segment according to the IARU Region 1 bandplans.

a. MGM, kHz-frequency
Users of MGM indicate the frequency they intend to carry out the QSO by
adding the three digits of the absolute frequency, i.e. the
kHz-frequency. For example CQ383 indicates that the station will listen
on 144,383 MHz for a subsequent contact.

Example: G4ASR wishes to try a random MS experiment on MGM and wants to start with calling CQ.
He first checks his receiver in the MGM range of 144,360 MHz to 144,397
MHz and finds a clear frequency on 144,394 MHz. He calls CQ on 144,370
MHz, and he must now add the kHz- frequency to his CQ call to indicate
on which frequency he intends to listen. In this example he will
therefore call "CQ394" in his CQ call.

Example: Your receive
PA2DW who is calling "CQ274" on the 50 MHz random frequency. This tells
you that PA2DW will listen on exactly 50,274 MHz.

b. CW/SSB
This proposal does not describe any procedures for QSY operation on CW/SSB anymore.

7.4.8 QSO PROCEDURE

All modes use the same MS-QSO procedure.

When attempting random SSB contacts, speak the letters clearly, using phonetics where appropriate.

a. Calling

The contact starts with one station calling the other by sending both call signs.

b. Reporting system

The report consists of two numbers:

First number

Second number (signal strength)

(burst duration)

S-units S/N

2 : up to 0,5 s

6 : below S2 or below 5 dB

3 : 0,5 - 1 s

7 : from S2 to S3 or from 5 dB to 10 dB

4 : 1 - 5 s

8 : from S4 to S5 or from 10 dB to 15 dB

5 : longer than 5 s

9 : above S5 or above 15 dB

Note that the number "1" is not used as the first number/burst duration.

Maximum duration of a ping (Underdense Reflection):

Band

Duration

50 MHz

1000 ms

70 MHz

500 ms

144 MHz

100 ms

432 MHz

13 ms

This means that the duration of bursts (Overdense Reflections) are longer than the above ping durations.

c. Reporting procedure

A report is sent when the operator has positive evidence of having
received the correspondent's or his own callsign or parts of one of
them. The report should be sent twice between each set of call signs.
The report must not be changed during a contact even though signal
strength or duration might well justify it.

d. Confirmation procedure

1) As soon as either operator copies both call signs and a report he may
start sending a confirmation. This means that all letters and figures
have been correctly received.The message can be pieced together from
fragments received over several bursts and pings, but it is up to the
operator to ensure that it is done correctly and unambiguously.
Confirmation is given by inserting an R before the report.

2) When
one operator receives a confirmation message, such as "R27", and all
required information is complete he must confirm with a string of R's,
inserting his own call sign after at least 3 R’s. When the other
operator has received the R's, the contact is complete and he may
respond in the same manner.

e. Requirements for a complete QSO

Both operators must have copied both callsigns, the report and a
confirmation that the other operator has done the same. This
confirmation can either be an "R" preceding the report or a string of
minimum three consecutive "RRR".

7.4.9 VALID CONTACTS

A valid contact is one where both operators have copied both callsigns,
the report and an unambiguous confirmation. However no recourse should
be made during the contact to obtain the required information, change of
frequency, antenna direction, etc. via other methods such as the
Internet, DX Cluster, talk-back on another band, telephone etc. Such
secondary methods invalidate the meteor scatter contact.

In essence: if anything concerning the ongoing QSO attempt is agreed
through other means than the QSO attempt frequency a new start is
required.Additional information for communication before and during the MS QSO:

Acceptable Examples:-

“shall we make a sked on 144.388 starting at 1310z, I will start”

“I have QRM, lets move 5 kHz up and start again”

“lets continue for another 15 minutes and start again”

“thank you for a nice QSO” after the QSO has completed on the radio”

Unacceptable Examples:-

“I only need the final rogers”

“470/9”

“I received a burst from you”

“I received a burst from you but I can not decode it”

7.4.10 DOCUMENT HISTORY

This
procedure was adopted at the IARU Region 1 Conference in
Miskolc-Tapolca (1978), later slightly amended at the IARU Region 1
Conference in Noordwijkerhout (1987), Torremolinos (1990), de Haan
(1993), San Marino (2002) and Vienna (2004).